无机材料研磨与混合的电物理强化与模拟

Bulletin of the Saint Petersburg State Institute of Technology (Technical University) Pub Date : 2022-01-01 DOI:10.36807/1998-9849-2022-60-86-18-22

Andrey A. Panferov, G. K. Ivakhnyuk, Nikolay F. Fedorov, Tazhir E. Mametnabiev, A. S. Drinberg

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引用次数: 0

摘要

先前在phospit JSC (Kingisepp，列宁格勒地区)证实的关于静电对水泥熟料球磨机研磨效率的显著影响的工作假设已在水泥生产中成功验证。静电电荷的电物理中性化方法不仅可以提高研磨机的生产率(提高12-18%重量)或节省电力驱动的能量(高达20%重量)，而且还可以获得分散的无机粉末的均匀混合物，例如，熟料加密制备，例如，当熟料充满污泥焚烧灰时。实验结果证实了混合过程数学模型的有效性。由此得出的干混合料表明，以其为基础的水泥石的机械强度具有实际的不变性。主粘结料-熟料节约量达15 wt. %，解决了污泥焚烧灰的利用问题

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ELECTROPHYSICAL INTENSIFICATION AND SIMULATION OF GRINDING AND MIXING OF INORGANIC MATERIALS

The working hypothesis previously confirmed at Phosphorit JSC (Kingisepp, Leningrad Region) on the significant effect of static electricity on the efficiency of grinding in cement clinker ball mills was successfully tested at the cement production. The method of electrophysical neutralization of static electricity charges has opened up the possibility not only to increase the productivity of grinders (by 12-18% wt.) or save energy for the electric drive (up to 20% rel.), but also made it possible to obtain homogeneous mixtures of dispersed inorganic powders, for example, a clinker encryption preparation, for example, when clinker is charged with sludge incineration ash. The homogeneity of such mixtures experimentally confirms the validity of the proposed mathematical model of the mixing process. The resulting dry mixtures showed the practical invariability of the mechanical strength of the cement stone based on them. The saving of the main binder-clinker was up to 15 wt. %, thus solving the problem of sludge incineration ash utilization

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Bulletin of the Saint Petersburg State Institute of Technology (Technical University)

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